hellenic republic ministry of environment, energy … · hydro_250 hydrographic network...

EXARCHOU NIKOLOPOULOS BENSSASSON CONSULTING ENGINEERS LTD.

LAZARIDIS & ASSOCIATES SA ENGINEERING PROJECTS COMPANY

GEOSET LTD

HELLENIC REPUBLIC

MINISTRY OF ENVIRONMENT, ENERGY

AND CLIMATE CHANGE

SPECIAL SECRETARIAT FOR WATER

PROTECTION DIRECTORATE

"DEVELOPMENT OF NEW BASE SOFTWARE FOR THE MANAGEMENT

AND OPERATION OF THE NATIONAL BANK OF HYDROLOGICAL AND

METEOROLOGICAL INFORMATION (ETYMP) –

PHASE III, IN GIS ENVIRONMENT AND DISCLOSURE OF THE ETYMP

PROJECT"

Dictionary of Digital Geographic Database

July 29, 2010

THE PROJECT IS CO-FUNDED BY THE EUROPEAN UNION (75%) AND BY NATIONAL RESOURCES (25%)

J/V HYDROSCOPE SYSTEMS

www.hydroscope.gr page 2/86

Table of Contents:

Document Details ....................................................................................................................3 Introduction..............................................................................................................................3

Digital Geographic Database ...............................................................................................3 Link to previous phase .........................................................................................................3

Water districts of Greece .........................................................................................................3 Terminology .............................................................................................................................3

Digital Map / MXD ................................................................................................................3 Layer ....................................................................................................................................3 ArcGIS Server system architecture ......................................................................................3 Map Services .......................................................................................................................3 Web Map Services ...............................................................................................................3

Projection System....................................................................................................................3 Digital Maps (mxds) .................................................................................................................3

Map Services .......................................................................................................................3 Web Map Services (WMS) ...................................................................................................3

INSPIRE Directive ...................................................................................................................3 Transportation Networks ......................................................................................................3

References .......................................................................................................................3 Administrative Units .............................................................................................................3

References .......................................................................................................................3 Hydrographic Network..........................................................................................................3 Items that are categorized differently ...................................................................................3

References .......................................................................................................................3 Catalog of Feature Classes .....................................................................................................3

ABlocksNB1996 ...................................................................................................................3 ABlocks96.........................................................................................................................3

Administration ......................................................................................................................3 akth...................................................................................................................................3 border_arc ........................................................................................................................3 geogr_units.......................................................................................................................3 kratos................................................................................................................................3 oria_dhmvn.......................................................................................................................3 oria_hellas ........................................................................................................................3 periferies...........................................................................................................................3 prefectures........................................................................................................................3 regionsgr...........................................................................................................................3

AdministrativeUnits ..............................................................................................................3 NUTS1..............................................................................................................................3 NUTS2..............................................................................................................................3 NUTS3..............................................................................................................................3 FirstOrder .........................................................................................................................3 SecondOrder ....................................................................................................................3 ThirdOrder ........................................................................................................................3 FourthOrder ......................................................................................................................3



FourthOrder_1991 ............................................................................................................3 FourthOrder_pk ................................................................................................................3

Charto ..................................................................................................................................3 sea_polygon .....................................................................................................................3

Corine...................................................................................................................................3 CLC2000 ..........................................................................................................................3

Dianomi100k_GMS ..............................................................................................................3 tile100k_GMS ...................................................................................................................3

Dianomi50k_GMS ................................................................................................................3 tile50k_GMS .....................................................................................................................3

Dianomi5k_GMS ..................................................................................................................3 tile5k_GMS.......................................................................................................................3

Elevation_50 ........................................................................................................................3 contourla...........................................................................................................................3 contourlm..........................................................................................................................3 elevp .................................................................................................................................3 elevzones .........................................................................................................................3 sinkpo ...............................................................................................................................3

Elevation_250 ......................................................................................................................3 land_ranges......................................................................................................................3

Grids.....................................................................................................................................3 gridxy87_arc .....................................................................................................................3 tile5kegsa .........................................................................................................................3

Hydro_250............................................................................................................................3 lakes .................................................................................................................................3 lakes_polygon...................................................................................................................3 rivers.................................................................................................................................3 StationsPoi .......................................................................................................................3 watrcrsl1m_arc .................................................................................................................3

HydroGeology ......................................................................................................................3 faults .................................................................................................................................3 geology .............................................................................................................................3 hydroformations................................................................................................................3 hygeo_code ......................................................................................................................3 springs ..............................................................................................................................3 springs_code ....................................................................................................................3 springs_codename ...........................................................................................................3 thermo ..............................................................................................................................3

HydroPhysicalWaters...........................................................................................................3 aquedctl ............................................................................................................................3 coasta ...............................................................................................................................3 coastl ................................................................................................................................3 daml..................................................................................................................................3 dangera ............................................................................................................................3 inunda...............................................................................................................................3 lakeresa ............................................................................................................................3



lndfrm1a............................................................................................................................3 seastrtl ..............................................................................................................................3 swampa ............................................................................................................................3 wellsprp ............................................................................................................................3 wtrcrsa ..............................................................................................................................3 wtrcrsl_c ...........................................................................................................................3 wtrcrsl_r ............................................................................................................................3 wtrshda .............................................................................................................................3

Natura2000 ..........................................................................................................................3 natura ...............................................................................................................................3

Pop50...................................................................................................................................3 builtupa .............................................................................................................................3

Pop250.................................................................................................................................3 towns ................................................................................................................................3

RailTransportNetworks.........................................................................................................3 Railwaylinksequence ........................................................................................................3 conditionoffacility_rail........................................................................................................3 railwaygauge ....................................................................................................................3 raiwayelectrification ..........................................................................................................3 verticalposition_rail ...........................................................................................................3

RoadTransportNetwork ........................................................................................................3 ConditionOfFacility............................................................................................................3 ERoad...............................................................................................................................3 FuctionalRoadClass..........................................................................................................3 NumberOfLanes ...............................................................................................................3 Road.................................................................................................................................3 RoadLinkSequence ..........................................................................................................3 RoadName .......................................................................................................................3 RoadSurfaceCategory ......................................................................................................3 RoadWidth........................................................................................................................3 VerticalPosition.................................................................................................................3

Toponames ..........................................................................................................................3 topotext.............................................................................................................................3

WaterDistricts.......................................................................................................................3 coastawd_polygon............................................................................................................3 coastl_arc .........................................................................................................................3 wdg ...................................................................................................................................3

WFDGroundWater ...............................................................................................................3 map...................................................................................................................................3 monitoring.........................................................................................................................3

WFDSurface.........................................................................................................................3 SWstn_detailed ................................................................................................................3

WFD_historical.....................................................................................................................3 coastal_GR.......................................................................................................................3 lakes_GR..........................................................................................................................3 Rivers_GR ........................................................................................................................3



transitional_GR.................................................................................................................3 WFD.....................................................................................................................................3

Rivbasin............................................................................................................................3 RWbody............................................................................................................................3 WFD_CA1 ........................................................................................................................3 WFD_RBD1......................................................................................................................3

References...........................................................................................................................3 Landsat 7 Satellite Images.......................................................................................................3

Digital Terrain Model ............................................................................................................3 Aster Digital Terrain Model ...............................................................................................3 SRTM Digital Terrain Model .............................................................................................3



Document Details

General

Organization

HELLENIC REPUBLIC

MINISTRY OF ENVIRONMENT, ENERGY

AND CLIMATE CHANGE

SPECIAL SECRETARIAT FOR WATER

PROTECTION DIRECTORATE

Contractor

HYDROSCOPE SYSTEMS CONSORTIUM

EXARCHOU NIKOLOPOULOS BENSSASSON

CONSULTING ENGINEERS LTD

LAZARIDIS & ASSOCIATES SA ENGINEERING

PROJECTS COMPANY

GEOSET LTD

Project

"DEVELOPMENT OF NEW BASE SOFTWARE

FOR THE MANAGEMENT AND OPERATION

OF THE NATIONAL BANK OF

HYDROLOGICAL AND METEOROLOGICAL

INFORMATION (ETYMP) -

PHASE III, WITHIN GIS ENVIRONMENT &

PUBLICITY OF THE PROJECT"

Document

Dictionary of Digital Geographic Database

Name of electronic file

Lexiko_ETYMP_v4_en.doc

Last update

29 / 07 / 10



Version Details Editors

Roupen Karampetian

Sousana Kouniaki

Marita Mataranga

Ermis Pirlis

Michalis Skaltsounakis

Nantia Tsiougou

Approval Date

Supervisor

Michalis Salahoris

29 / 07 / 10

Version History Version Date Description of changes

4.0 29 / 07 / 10 Fourth edition. Submit.

Distribution Table Department Α/Γ Recipient

Project Acceptance Monitoring

Committee



Introduction

Digital Geographic Database

The digital geographic database (geodatabase) contains the following feature datasets and feature classes:

Layer Description Feature Class Type Scale ABlocksNB1996 Plots ABlocks96 Polygon 1:10 000

akth Line 1:50 000 border_arc Line 1:50 000 geogr_units Polygon 1:50 000 kratos Line 1:50 000 oria_dhmvn Polygon 1:50 000 oria_hellas Line 1:50 000 periferies Polygon 1:50 000 prefectures Polygon 1:50 000 regionsgr Polygon 1:50 000

Administration Administrative boundaries Greece

SDE_kratos Line 1:50 000 NUTS1 Polygon 1:50 000 NUTS2 Polygon 1:50 000 NUTS3 Polygon 1:50 000 FirstOrder Polygon 1:50 000 SecondOrder Polygon 1:50 000 ThirdOrder Polygon 1:50 000 FourthOrder Polygon 1:50 000 FourthOrder_1991 Polygon 1:50 000

AdministrativeUnits It contains the boundaries of all levels of the administrative hierarchy. Every feature class represents only one level.

FourthOrder_pk Polygon 1:50 000 Charto Contains Greece

and parts of neighbouring countries for chartographic purposes

sea_polygon Polygon

Dianomi100k_GMS MGS 1:100 000 Map tile distribution

tile100k_GMS Polygon 1:100 000





contourla Line 1:50 000 contourlm Line 1:50 000 elevp Point 1:50 000

Elevation_50 Elevation data (contours, elevation points, special elevation elevzones Polygon 1:50 000



Layer Description Feature Class Type Scale

point for the improvement of DTM) Altitudinal zones at 100 meters.

sinkpo Point

Elevation_250 Elevation Zones land_ranges Polygon 1:250 000 Gridxy87_arc Line Grids GGRS87 map

tile distribution and GGRS87 1:5 000 map tile distribution of Ministry of Agriculture

tile5kegsa Polygon 1:5 000

lakes Polygon 1:250 000 lakes_polygon Polygon 1:1 000 000 rivers Line 1:250 000 StationsPoi Point 1:250 000

Hydro_250 Hydrographic Network

watrcrsl1m_arc Line 1:1 000 000 faults Line 1:50 000 geology Polygon 1:50 000 hydroformations Polygon 1:50 000 hygeo_code Table springs Point 1:50 000 springs_code Table springs_codename Table

HydroGeology Hydrogeological data

thermo Point 1:50 000 aquedctl Line 1:50 000 coasta Polygon 1:50 000 coastl Line 1:50 000 daml Line 1:50 000 dangera Polygon 1:50 000 inunda Polygon 1:50 000 lakeresa Polygon 1:100 000 lndfrm1a Polygon 1:50 000 seastrtl Line 1:50 000 swampa Polygon 1:50 000 wellsprp Point 1:50 000 wtrcrsa Polygon 1:50 000 wtrcrsl_c Line 1:50 000 wtrcrsl_r Line 1:100 000

HydroPhysicalWaters Hydrographic and physiographic Network Data: River basin as defined in the register of Ministry of Development

wtrshda Polygon 1:50 000 Natura2000 Areas of Natura

2000 Natura Polygon 1:100 000 for land

1:50 000 for sea Pop50 Settlements builtupa Polygon 1:50 000 for

Greece 1:100 000 for neighbouring countries



Layer Description Feature Class Type Scale

Pop250 Capital of Municipalities before “Kapodistrias"

Towns Point 1:250 000

Railwaylinksequence Line 1:50 000 conditionoffacility_rail Table railwaygauge Table raiwayelectrification Table

RailTransportNetworks Railway network

verticalposition_rail Table ConditionOfFacility Table ERoad Line 1:100 000 FuctionalRoadClass Table NumberOfLanes Table Road Line 1:100 000 RoadLinkSequence Line 1:100 000 RoadName Table RoadSurfaceCategory Table RoadWidth Table

RoadTransportNetwork Road Network

VerticalPosition Table Toponames Place names topotext Point 1:50 000

coastawd_polygon Polygon 1:50 000 coastl_arc Line 1:50 000

WaterDistricts Water districts

wdg Polygon 1 000 000 map Polygon WFDGroundWater Map of

groundwater systems and groundwater aquifers monitoring stations

monitoring Point

WFDSurface Surface water monitoring stations

SWstn_detailed Point 1:50 000

coastal_GR Polygon 1:50 000 lakes_GR Polygon 1:50 000 Rivers_GR Line 1:50 000

WFD_historical Coastal waters, lakes, rivers and transitional waters transitional_GR Polygon 1:50 000

Rivbasin Polygon 1:250 000 RWbody Line 1:250 000 WFD_CA1 Point 1:250 000

WFD Hydrographic network for water management

WFD_RBD1 Polygon 1:250 000

In addition, it contains a raster level named «Hellas200» which is a geophysical Map of Greece of scale 1:200 000 with pixel size 200 m2.



Link to previous phase

The current digital geodatabase (ETYMP 2) was based on the digital geodatabase created during the 2nd phase of the project (ETYMP 1), circa 2000 and consisted of feature classes that resulted from selective digitization of the most recent, at the time, version of the analog 1:50 000 Map Sheets of the Hellenic Military Geographical Service (GYS). The data that formed the ETYMP 1 came from digitization of GYS 1:50 000 slides of 1971. The digitization was made between 1998 and 1999.

In the 3rd phase of the project we proceeded to the creation of the ETYMP 2 which is based on the data from ETYMP 1 which now have been enriched and updated. Initially, there was enrichment or review of the contents of the geographic database by adding new content. For example, we can mention the following: The hydrographic network, the physiographic elements and the Settlements have been updated as far as the area they cover is concerned, while the road network had to have a complete revision to reflect the current situation and to expand over the border areas. Finally, we proceeded to update the schema of the database, according to today’s standards and are due under EU Directives, such as the Inspire Directive and the WFD guidance for water.



Water districts of Greece

The map below shows the 14 water districts of Greece.



Terminology

Digital Map / MXD

A digital map file (“.mxd” file) contains details about the layers used to design various features, symbols and attributes of labels and other elements of the map. The composition of a digital map is the rendering of the information on the map with point, line or polygon symbols.

Figure 1: A digital map contains point (1), line (2) and polygon (3) thematic layers.



Layer

Layers are the visual representations of geographical themes at every digital mapping environment. In other word, a layer is a visualization of a portion of the real world or a phenomena and it corresponds to information that is shown in the legend.

The layer is a reference to a data source, like the feature classes of a geodatabase, which που defines how the symbol must appear on the digital map (“.mxd” file). The layer define other additional attributes, like which features from a feature class will appear on a digital map.

Figure 2: Representation of various types of geographic information through layers.

The levels of information can yield information through:

• Discrete entities as points, lines and polygons.

• Mapping symbols, colours, and labels that help to describe the objects on the map.

• Aerial photographs or satellite images covering the area of the map.

• Continuous surfaces such as elevation, which can be represented as contours, elevation points, or shaded relief map.



ArcGIS Server system architecture



The key elements of the system are: GIS server: The part where all the GIS data exist. The GIS server export them as services for the client applications. It consists of two distinct parts. The server object managers (SOM) and the server object containers (SOC). The first one manages the services that run on the server. When there is a request from the client application it provides the appropriate service. The SOM are connected with one or more SOM. The SOC machines are these which contain the services the SOM manage. Depending on configuration, SOM and SOC may be in the same of a different system. (In figure above a SOM is connected with two SOC.) Web server: This is the server where the applications and Web services are, which use resources to run on the GIS Server. Clients: These are applications connected with the ArcGIS server services through the Internet. Data server: It is a database server which contains all the GIS data found as services in the GIS server. Manager and ArcCatalog administrators: Through ArcCatalog and ArcGIS Server Manager resources can be published as services. The Manager is a Web application that supports services publishing, the administration of the GIS Server, the creation of Web applications and the publishing of ArcGIS explorer maps in the server. The Catalag contains tools which can add connections to the GIS server either for general use or management of properties and services. ArcGIS Desktop content authors: It is applications such as ArcMap, ArcCatalog and ArcGlobe which create the GIS content. Data, maps and geoprocessing tools which are published on the server

Map Services

The map services are part of GIS services and represent ready digital maps which are on the server and made available to client applications.

Web Map Services

The Open Geospatial Consortium, Inc (OGC) Web Map Service (WMS) is a OpenGIS specification standard for sharing interactive maps as images based on requests made from a client software to a server through the Internet.

The data is in a server from where the map service gets the data whenever necessary.

The communication between the client software, eg ArcMap, and WMS Server is via HTTP. The following describes the general steps of the process of communication between ArcGIS Desktop and a WMS Server.



1. Through ArcMap where there is

interaction at a WMS layer ah HTTP query is created.

2. The HTTP query is sent to the WMS Server.

3. The WMS Server processes the query and generates a response.

4. The WMS Server sends the response. It can be in either XML or HTML or image format.

5. ArcMap receives the response kai processes the information.



Projection System

Projection system is a reference system used to identify the x, y and z positions of a point, a line or a surface in two dimensions or three dimensions. The projection system allows the projection of ellipsoid on a level surface. The system is defined by a series of functions, which, among other information, provide the degree of deformation of shape when depicted on an ellipsoid. Thus, each point of the ellipsoid corresponds to a point on the level surface and vice versa.

The projection system used in this project is the Greek Geodetic Reference System 1987 (GGRS 87).

The projection system GGRS 87 is considered as a single band for the whole country with a central meridian λο=240 and has a uniform scale factor of 0.9996. The deformations in this way can reach up to 1:1 000 near the boundaries of the country (ie 1 m every 1 km). To avoid negative values, the central meridian has an abscissa of 500 000 m. Top ordinate is the equator (φ=0°). It's the latest projection system used in Greece, is a cooperative effort of the Department of Higher Geodesy, Department of Rural and Surveying Engineering - NTUA, the Hellenic Army Geographic Service and the Hellenic Mapping and Cadastral Organization.

Projection System Name: Greek Geodetic Reference System 87 Geodetic reference system (Datum): GGRS 87 starting from the moved geodetic centre at

Dionysus base station Reference ellipsoid: GRS'80 Semi-major axis a: 6 378 137.000 m Inverse flattening (1/f): 1/298.257222101 Scale coefficient Κο 0.9996

The parallel shifting of the ellipsoid that applies to the WGS84 in relation to the ΕΓΣΑ 87 is:

(DX, DY, DZ) = (-199.72, 74.03, 246.02) in meters.

The GGRS 87 is an ellipsoid adjusted for Greece to have the smallest possible errors. Whereas the WGS84, geocentric. The conversion between WGS84 and GGRS87 gives errors less than a meter.



Digital Maps (mxds)

The following tables list all the maps that have been created for Internet Applications, the map services which share the map on the Internet and web map services, which are accessible to the client applications via the Internet.

C/N File Name Title Layer Name Dataset

contents Feature class contents

Notes

1. Background.mxd a. Water Districts WaterDistricts wdg b. Lakes Hydro_250 lakes_polygon c. Rivers Main Hydro_250 watrcrsl1m_arc d. Rivers Hydro_250 rivers e. Boundaries Administration kratos f. Coastline Administration akth g. Local

Governments Administration oria_dhmvn

h. Prefectures Administration prefectures i. Regions Administration periferies j. Provinces Administration regionsgr k. Geographic

Units Administration geogr_units

l. Elevation Zones

Elevation_250 land_ranges

m. Sea Charto sea_polygon n. Geophysical

Map Hellas200

2. Greece.mxd a. Geophysical Hellas200



C/N File Name Title Layer Name Dataset contents

Feature class contents

Notes

Map 3. HydroMeteoStationsGR.mxd a. H-M Stations stationsgis 4. HyBasicDevS.mxd a. Monitoring

Stations stationsgis

b. Water Districts WaterDistricts wdg c. Lakes Hydro_250 lakes_polygon d. Rivers Main Hydro_250 watrcrsl1m_arc e. Rivers Hydro_250 rivers f. Boundaries Administration kratos g. Coastline Administration akth h. Local

Governments Administration oria_dhmvn

i. Prefecture Governments

Administration prefectures

j. Regions Administration periferies k. Provinces Administration regionsgr l. Geographic

Units Administration geogr_units

m. Elevation Zones

Elevation_250 land_ranges

n. Geophysical Map

Hellas200

o. Sea Charto sea_polygon p. Monitoring

Spots Hydro_250 StationsPoi



C/N File Name Title Layer Name Dataset contents

Feature class contents

Notes

5. SatImages.mxd a. Landsat 100 Landsat_tile100km

Map Services

C/N Service Name Title Content (mxd) Notes 1. Background Topographic Base Background.mxd 2. Greece_Geophysical Geophysical Map Greece.mxd 3. HydroMeteoStationsGR H-M Stations HydroMeteoStationsGR.mxd 4. Hydroscope_Stations HyBasicDevS.mxd 5. RegionMap SatImages.mxd

Web Map Services (WMS)

C/N Service Name Map Title Content (mxd) URL address Notes 1. OGC:WMS Topographic

Base Background.mxd http://thyamis.itia.ntua.gr/ArcGIS/services/Bac

kground/MapServer/WMSServer?

2. Greece_Geophysical Geophysical Map

Greece.mxd http://thyamis.itia.ntua.gr/ArcGIS/services/Greece_Geophysical/MapServer/WMSServer?

3. HydroMeteoStationsGR HydroMeteoStationsGR.mxd http://thyamis.itia.ntua.gr/ArcGIS/services/HydroMeteoStationsGR/MapServer/WMSServer?

4. Hydroscope_Stations HyBasicDevS.mxd http://thyamis.itia.ntua.gr/ArcGIS/services/Hydroscope_Stations/MapServer/WMSServer?

5. RegionMap SatImages.mxd http://thyamis.itia.ntua.gr/ArcGIS/services/Reg



C/N Service Name Map Title Content (mxd) URL address Notes

ionMap/MapServer/WMSServer?



C/N WMS service

name Content

1. Greece_Geophysical

2. HydroMeteoStatio

nsGR



C/N WMS service

name Content

3. Hydroscope_Stations

4. OGC:WMS



C/N WMS service

name Content

5. RegionMap



INSPIRE Directive

According to the INSPIRE guidelines for the management of the data the following standards have

been followed:

• For the Transportation Network (road and rail)

• For the Administrative Units

• For the Hydrographic Network

Transportation Networks

Figure 3: Example of cross-border link of a Transportation Network1

1 INSPIRE Thematic Working Group Transport Networks. D2.8.I.7 INSPIRE Data Specification on Transport Networks –

Guidelines. 2009-09-07. p32.



Figure 4: Example of the use of Link, Node, Link Sequence and Link Set2


Guidelines. 2009-09-07. p.33.



Figure 5: Illustration – Example of use of elements forming the Road Transport Network.3


Guidelines. 2009-09-07. p.55.



Figure 6: Illustration – Example of use of elements forming the Rail Transport Network.4

References

[DS-D2.5] INSPIRE DS-D2.5, Generic Conceptual Model, v3.2,

http://inspire.jrc.ec.europa.eu/documents/Data_Specifications/D2.5_v3.2.pdf

[DS-D2.8.I.3] INSPIRE DS-D2.8.I.3 INSPIRE data specification on Geographical names –

Guidelines, v3.0

http://inspire.jrc.ec.europa.eu/documents/Data_Specifications/INSPIRE_DataSpecification_GN_v3.0.p

df

[DS-D2.8.I.7] INSPIRE DS-D2.8.I.7 INSPIRE data specification on Transport Networks – Guidelines,

v3.0

http://inspire.jrc.ec.europa.eu/documents/Data_Specifications/INSPIRE_DataSpecification_TN_v3.0.p

df


Guidelines. 2009-09-07. p.79.



Administrative Units

5The polygons represent Administrative units at three

levels:

1) national level 1: AU1 polygon represents a country;

2) national level 2: AU2 and AU3 polygons represent

regions; AU2 + AU3 topologically equal to AU1;

3) national level 3: AU4 and AU5 represent lowest

level units; AU4 + AU5 topologically equal to AU2

For AU3 there is no further subdivision.

Level 2 is topologically equivalent to level1 of administrative hierarchy. Level 3 is not topologically

equivalent to levels 1 and 2.

The national levels in which Administrative Units are separated are:

Name Depicts Example

1st National Level Country Greece

2nd

National Level Region Central Macedonia

3rd

National Level Prefecture Aitoloakarnania

4th

National Level Local Government Municipality of Katerini

Since we have more than one Level 1 AU geometric entities (country), the example is altered like this:

6Besides the 3 inner levels that remain as they were in

the previous example, now they are three regional

polygons, AU-X, AU-Y, AU-Z, which depict the

neighbouring to AU1 countries.

Begin and end nodes of country level boundaries do

not necessarily meet the begin/end node of some

regional boundary

The Administrative Boundary features are determined independently at each level, and are based on

the topological structure established separately for each level national administrative hierarchy.

5 INSPIRE Thematic Working Group Administrative units. D2.8.I.4 INSPIRE Data Specification on Administrative units –

Guidelines. 2009-09-07. p.24 6 INSPIRE Thematic Working Group Administrative units. D2.8.I.4 INSPIRE Data Specification on Administrative units –

Guidelines. 2009-09-07 p.25



References




Guidelines, v3.0


df

[DS-D2.8.I.4] INSPIRE DS-D2.8.I.4 INSPIRE data specification on Administrative units –

Guidelines,

v3.0

http://inspire.jrc.ec.europa.eu/documents/Data_Specifications/INSPIRE_DataSpecification_AU_v3.0.p

df



Hydrographic Network

Figure 7: Some elements of the physical water and related objects7

Correlation of water elements with feature classes in the geodatabase

Elements Feature class

Spring wellsprp

Dam daml

Aqueduct aquedctl

Watercourse (flow και surface) wtrcrsl_r, wtrcrsl_c, wtrcrsa

Standing water swampa, dangera, lndfrm1a, lakersa

Land/Water boundary coastl

Inundated Land inunda

Sea structure seastrtl

Drainage basin DrainageBasin

7 INSPIRE Thematic Working Group Hydrography. D2.8.I.8 INSPIRE Data Specification on Hydrography – Guidelines.

2009-09-07. p11



Figure 8: River basin and drainage basins8


2009-09-07. p12



Figure 9: Elements of Reporting9

Moreover, the WFD dataset includes elements of the hydrographic network such as:

• rivers (river segment, river waterbody)

• lakes (lake segment, lake waterbody)

• drainage basins (river basin)

• sub-basins (sub-basin)

and management data like:

• water districts (riverbasindistricts)

• authority bodies (competent authorities)

It was created according the 2000/60/EK water guidance and specifically the texts:

• Guidance Document No. 2. Identification of Water Bodies

http://circa.europa.eu/Public/irc/env/wfd/library?l=/framework_directive/guidance_documents/guidancesnos2sidentifica/_EN_1.0_&a=d


2009-09-07. p53



• Guidance Document No. 3. Analysis of Pressures and Impacts http://circa.europa.eu/Public/irc/env/wfd/library?l=/framework_directive/guidance_documents/guidancesnos3spressuress/_EN_1.0_&a=d

• Guidance Document No. 5. Transitional and Coastal Waters - Typology, Reference Conditions and Classification Systems http://circa.europa.eu/Public/irc/env/wfd/library?l=/framework_directive/guidance_documents/guidancesnos5scharacteri/_EN_1.0_&a=d

• Guidance Document No. 9. Implementing the Geographical Information System Elements (GIS) of the Water Framework Directive http://circa.europa.eu/Public/irc/env/wfd/library?l=/framework_directive/guidance_documents/guidancesnos9sgisswgs31p/_EN_1.0_&a=d

• Guidance Document N° 22 - Updated WISE GIS guidance (nov 2008) http://circa.europa.eu/Public/irc/env/wfd/library?l=/framework_directive/guidance_documents/guidance-no22-_nov08pdf_1/_EN_1.0_&a=d

Also, in the design of these levels the requirements of technical specifications relating to the inquiry and standards thematic layers (shapefile templates) mentioned in the text of the guideline and 22 at the following address were taken into account:

http://eea.eionet.europa.eu/Public/irc/eionet-circle/eionet-telematics/library?l=/technical_developments/wise_technical_group/updated_2nd-edition/supporting_documents/appendix_dictionary/framework_directive_1&vm=detailed&sb=Title

Items that are categorized differently

In some cases, data can be divided into different spatial objects groups in the Hydrographic model. For example, small weirs and sluices can act (and look) in a similar manner. For example: if the level-level rise, a sluice will start to behave as a dam with water running over the gates. The categorization is based on a component of normal operation. For example, a barrier is manufactured differently from a sluice and should be classified based on normal operation.



Figure 10: Watercourse, shore and inundated land; in the right situation the overflowed bank

is not considered inundated land.10

Figure 11: Small weir (left) and sluice (right))11

10

INSPIRE Thematic Working Group Hydrography. D2.8.I.8 INSPIRE Data Specification on Hydrography – Guidelines.

2009-09-07. p88 11

INSPIRE Thematic Working Group Hydrography. D2.8.I.8 INSPIRE Data Specification on Hydrography – Guidelines.

2009-09-07. p88



References




Guidelines, v3.0


df

[DS-D2.8.I.8] INSPIRE DS-D2.8.I.8 INSPIRE data specification on Hydrography –Guidelines, v3.0

http://inspire.jrc.ec.europa.eu/documents/Data_Specifications/INSPIRE_DataSpecification_HY_v3.0.p

df



Catalog of Feature Classes

In the following tables there is no description of the fields generated automatically by ArcMap.

Where there is an asterisk (*) the fields are not specified by the INSPIRE Directive.

The value of -2999 was used in cases where there were unknown values for any record in the feature class.

ABlocksNB1996

ABlocks96 Contents: Ilots 1996 – Polygon

Fields Data Type Description

objectid COUNTER Polygon FID

ilot_no VARCHAR(10) Code number of ilot

cover_id SMALLINT Land cover code

shape_Length DOUBLE The perimeter of the polygon, it is calculated automatically by the system

Shape_Area DOUBLE The area of the polygon, it is automatically calculated by the system

Fields can take the following values

Field Name Value Denotes

10 Forest

11 Forest mixed

20 Urban

21 Urban mixed

30 Pasture

31 Pasture mixed

40 Arable

41 Arable mixed

50 Permanent crops

51 Permanent crops mixed

60 Olive cultivation

61 Olive cultivation mixed

70 Vines

71 Vines mixed

90 Other

cover_id

91 Roads – Water

The boundaries of the units were digitized from 1:10 000 scale aerial photographs taken in 1996.

Administration

akth Contents: Coastline of Greece – Line


objectid COUNTER Line FID

shape LONGBINARY The geometry of line, it is automatically calculated by the system

shape_Length DOUBLE The length of the line, it is automatically calculated by the system



The data came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides. The digitization was made in 1998. border_arc Contents: Borders of Greece with national waters – Line





The data came from the National Environmental Information Network and the scale is 1:50 000. These data are in the database for chartographic and / or historical reasons. These data are not updated. geogr_units Contents: Geographic Units – Polygon



onomasia VARCHAR(55) Name

ektash VARCHAR(9) Area of unit

shape LONGBINARY The geometry of polygon, it is automatically calculated by the system


shape_Area DOUBLE The area of the polygon, it is automatically calculated by the system

The data came from the National Environmental Information Network and the scale is 1:50 000. These data are in the database for chartographic and / or historical reasons. These data are not updated. kratos Contents: Borders of Greece without national waters – Line





The data came from the National Environmental Information Network and the scale is 1:50 000. These data are in the database for chartographic and / or historical reasons. These data are not updated. oria_dhmvn Contents: Boundaries of municipalities and settements – Polygon



per_91 VARCHAR(4) Region code in 1991

cod_91 VARCHAR(6) Full code 1991

nom_91 VARCHAR(2) Prefectue code in 1991

ota_91 VARCHAR(3) Local govermnment code 1991

cod_pk VARCHAR(6) Full code before Kapodistrias

nom_pk VARCHAR(2) Prefecture code before Kapodistrias

ota_pk VARCHAR(3) Local government code before Kapodistrias

cod_mk VARCHAR(4) Full code after Kapodistrias

nom_mk VARCHAR(2) Prefecture code after Kapodistrias

ota_mk VARCHAR(2) Local government code after Kapodistrias

u_w_ota_91 VARCHAR(45) Name of of municipality or settement in Greek in 1991



u_w_ota_pk VARCHAR(45) Name of of municipality or settement in Greek before Kapodistrias

u_w_ota_mk VARCHAR(45) Name of of municipality or settement in Greek after Kapodistrias

u_l_ota_91 VARCHAR(45) Name of of municipality or settement with Latin characters in 1991

u_l_ota_pk VARCHAR(45) Name of of municipality or settement with Latin characters before Kapodistrias

u_l_ota_mk VARCHAR(45) Name of of municipality or settement with Latin characters after Kapodistrias

xdimos DOUBLE The X coordinate of the centroid of the polygon

ydimos DOUBLE The Y coordinate of the centroid of the polygon




The data came from the National Environmental Information Network and the scale is 1:50 000. These data are in the database for chartographic and / or historical reasons. These data are not updated. oria_hellas Contents: Coastline and borders of Greece – Line





The data came from the National Environmental Information Network and the scale is 1:50 000. periferies Contents: Regions – Polygon



region VARCHAR(2) Region code

onoma VARCHAR(55) Name




The data came from the National Environmental Information Network and the scale is 1:50 000. These data are in the database for chartographic and / or historical reasons. These data are not updated. prefectures Contents: Prefectures – Polygon



kodikos VARCHAR(8) Prefecture code

onomasia VARCHAR(55) Name in uppercase

ektash VARCHAR(9) Area of prefecture

onomasia_m VARCHAR(55) Name in lowercase

x DOUBLE The X coordinate of the centroid of the polygon

y DOUBLE The Y coordinate of the centroid of the polygon






The data came from the National Environmental Information Network and the scale is 1:50 000. These data are in the database for chartographic and / or historical reasons. These data are not updated. regionsgr Contents: Provinces – Polygon



kodikos VARCHAR(8) Province code

onomasia VARCHAR(55) Province name

ektash VARCHAR(9) Province area




The data came from the National Environmental Information Network and the scale is 1:50 000. These data are in the database for chartographic and / or historical reasons. These data are not updated.

AdministrativeUnits

NUTS1 Contents: 1st level of Nomenclature of Territorial Units for Statistics – Polygon



geometry VARCHAR(10) The geometric representation of the spatial area covered by the administrative unit

nutscode VARCHAR(5) Unique coding of the unit according to the framework of the guidance 1059/2003 of the European Parliament and the Counsil of 26/5/2003

beginlifespanversion DATETIME Date and time of which spatial objects were created or inserted into the database

endlifespanversion DATETIME Date and time of which spatial objects were removed from the database


inspireid VARCHAR(50) Unique external code of the administrative unit



The data obtained by processing the administrative boundary levels 1St Order, 2nd Order and 3rd Order with regard to Greece in conjunction with data from ESRI for the administrative boundaries of neighbouring countries, whereas the maps of Eurostat to determine the boundaries of statistical units.

NUTS2 Contents: 2nd level of Nomenclature of Territorial Units for Statistics – Polygon














NUTS3 Contents: 3rd level of Nomenclature of Territorial Units for Statistics – Polygon








inspireid VARCHAR(50) Unique external code of της administrative unit




FirstOrder Contents: 1st level administrative division – Polygon



country VARCHAR(2) Two-digit country number in accordance with ISO 3166



nationalcode VARCHAR(10) Thematic ID corresponding to the national administrative code set in each country

xresidenceofauthority DOUBLE X coordinate of the centroid of local government

yresidenceofauthority DOUBLE Υ coordinate of the centroid of local government


nationallevel VARCHAR(10) The level of administrative hierarchy which owns the unit

nationallevelname VARCHAR(50) The name of administrative hierarchy level which owns the unit

name VARCHAR(55) Official national name of the administrative unit









AL Albania

BG Bulgaria

MK FYROM

GR Greece

country

TR Turkey

For areas concerning Greece the data came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides. The digitization was made in 1998. For neighbouring countries they came from ESRI.

SecondOrder Contents: 2nd level administrative division – Polygon Fields Data Type Description


















AL Albania

BG Bulgaria

MK FYROM

GR Greece

country

TR Turkey




ThirdOrder Contents: 3rd level administrative division – Polygon












endlifespanvesion DATETIME Date and time of which spatial objects were removed from the database







AL Albania

BG Bulgaria

MK FYROM

GR Greece

country

TR Turkey


FourthOrder Contents: 4th level administrative division – Polygon















namegr VARCHAR(45) Official national name of the administrative unit in Greek

nameen VARCHAR(45) Official national name of the administrative unit in English






AL Albania

BG Bulgaria

MK FYROM

GR Greece

country

TR Turkey

The data came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides. The digitization was made in 1998.

FourthOrder_1991 Contents: 4th level administrative division (with the coding applied until 1991) – Polygon








yresidneceofauthority DOUBLE Υ coordinate of the centroid of local government












AL Albania

BG Bulgaria

country

MK FYROM



GR Greece

TR Turkey


FourthOrder_pk Contents: 4th level administrative division (with the coding applied before Kapodistrias project) – Polygon




















AL Albania

BG Bulgaria

MK FYROM

GR Greece

country

TR Turkey


Charto

sea_polygon Contents: Greece and neighbouring countries for chartographic purposes – Polygon



sea_id INTEGER Land or sea


shape_Length DOUBLE The perimeter of the polygon, it is calculated automatically by the



system




0 Land sea_id

1 Sea

The data was created by merging the coastline of Greece file with a digitized polygon in a rectangular frame surrounding the geographical area of Greece.

Corine

CLC2000 Contents: Land use – Polygon



code_00 VARCHAR(3) Land use code

area DOUBLE The area of the polygon




The data was supplied by the European Environment Agency and their scale is 1:100 000. http://www.eea.europa.eu/themes/landuse/clc-download

Dianomi100k_GMS

tile100k_GMS Contents: HMGS 1:100 000 Map tile distribution – Polygon



id_100 SMALLINT Map tile code

name VARCHAR(40) Map tile name in Greek

name__lat VARCHAR(40) Map tile name in Latin characters

classified SMALLINT Classification of tile






0 The tile is not classified classified

1 The tile is classified

The data come from the map tile distribution of the Hellenic Military Geographical scale of 1:100 000.



Dianomi50k_GMS

tile50k_GMS Contents: HMGS 1:50 000 Map tile distribution – Polygon




perimeter DOUBLE The perimeter of the polygon

diabathmis DOUBLE Classification of tile

titleg VARCHAR(25) Map tile name in Greek

titlee VARCHAR(25) Map tile name in Latin characters

code INTEGER Map tile code






0 The tile is not classified diabathmis

1 The tile is classified

The data come from the map tile distribution of the Hellenic Military Geographical scale of 1:50 000.

Dianomi5k_GMS

tile5k_GMS Contents: HMGS 1:5 000 Map tile distribution – Polygon Fields Data Type Description



perimeter DOUBLE The perimeter of the polygon

name VARCHAR(10) Map tile name tile5kgys VARCHAR(6) Map tile name shape LONGBINARY The geometry of polygon, it is automatically calculated by the

system



The data come from the map tile distribution of the Hellenic Military Geographical Service scale of 1:5 000.

Elevation_50



contourla Contents: Additional contour lines in areas of slope less than 5% – Line



f_code VARCHAR(5) Feature code

hqc SMALLINT Accuracy class

zv2 INTEGER Elevation





F_CODE CA010 Contour line

HQC 2 Secondary contour of verified accuracy

ZV2 29999 Unknown

The data came from the geographic digital database that was created in the previous phase of the ETYMP project which itself came from digitized slides of the Hellenic Military Geographical Service of scale 1:50 000 version 1971. The digitization was made in 1999.

contourlm Contents: Contour lines per 100 meters – Line




hqc SMALLINT Accuracy class






F_CODE CA010 Contour line

HQC 1 Main contour of verified accuracy

7 Main contour of questionable accuracy

ZV2 29999 Unknown

The data came from the geographic digital database that was created in the previous phase of the ETYMP project which itself came from digitized slides of the Hellenic Military Geographical Service of scale 1:50 000 version 1971. The digitization was made in 1999.

elevp Contents: Elevation points and trigonometric points used to calculate the Digital Terrain Model. – Point


objectid COUNTER Point FID


acc SMALLINT Accuracy class

ela SMALLINT Elevation accuracy

mcc SMALLINT Point position


shape LONGBINARY The geometry of points, it is automatically calculated by the system





ACC 0 Unknown

1 Exact

2 Approximate

ELA 0 Unknown

1 Exact

2 Approximate

MCC 0 Unknown

30 On earth’s surface

103 Snow - Ice

ZV2 29999 Unknown

The data came from the geographic digital database that was created in the previous phase of ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides and supplemented by the corresponding colored map sheets in the same version. The digitization was made in 1999.

elevzones Contents: Elevation zones per 100 meter. – Polygon









ZV2 29999 Unknown

The data came from the geographic digital database that was created in the previous phase of the ETYMO project, which itself came from the digital terrain model with a pixel size of 25 meters.

sinkpo Contents: Additional points that were used to improve the hydrological characteristics of the digital terrain model. – Point Fields Data Type Description






ZV2 29999 Unknown

The data came from the geographic digital database that was created in the previous phase of the ETYMO project, which itself came from the digital terrain model with a pixel size of 25 meters.

Elevation_250



land_ranges Contents: Contours as polygons – Polygon



low_spot INTEGER Lowest point

top_spot INTEGER Highest point




The data were obtained from digital terrain model with a pixel size of 100 meters.

Grids

gridxy87_arc Contents: GGRS87 1 degree map tile distribution – Line



value VARCHAR(20) The value of latitude for the horizontal lines and the value of longitude for vertical lines in degrees GGRS87



Data were created in ArcGIS environment for chartographic purposes. tile5kegsa Contents: GGRS87 4x5 km 1:5 000 map tile distribution – Polygon



x_coord DOUBLE In the areas of land is the coordinate X of the center of the map tile, while for areas of sea is a constant value of no significance.

y_coord DOUBLE In the areas of land is the coordinate Y of the center of the map tile, while for areas of sea is a constant value of no significance.

tile VARCHAR(15) The code of the map tile

land VARCHAR(1) If the map tile is land or sea






Land 1 Land

Data were created in ArcGIS environment for chartographic purposes and their scale is 1:5 000.

Hydro_250

lakes



Contents: Lakes – Polygon






The data came from the Hellenic Mapping and Cadastral Organization and their scale is 1:250 000. These data are in the database for chartographic and / or historical reasons. These data are not updated.

lakes_polygon Contents: Lakes – Polygon



code SMALLINT Type of lake






Code 21 Lagoon

45 Lake

The data came from the Hellenic Mapping and Cadastral Organization and their scale is 1:1 000 000. These data are in the database for chartographic and / or historical reasons. These data are not updated.

rivers Contents: Detailed rivers for scale 1:250 000 – Line





The data came from the Hellenic Mapping and Cadastral Organization and their scale is 1:250 000. These data are in the database for chartographic and / or historical reasons. These data are not updated.

StationsPoi Contents: Weather stations – Point



aawdistrict DOUBLE Water district number

stationcode DOUBLE Station code

stationname VARCHAR(255) Station name

category VARCHAR(10) Station category

service VARCHAR(255) Maintenance service

startdate DATETIME Date of station put into use

finishdate DATETIME Date of station out of use

xegsa DOUBLE X Coordinate in EGSA

yegsa DOUBLE Y Coordinate in EGSA

elevation DOUBLE Station Altitude



wdistrict VARCHAR(255) Water district in which the station is in

fid_prefectures INTEGER Prefecture FID

kodikos VARCHAR(8) Prefecture code

onomasia VARCHAR(55) Prefecture name in Greek

ektash VARCHAR(9) Prefecture area

onomasia_m VARCHAR(55) Prefecture name in Latin characters

x DOUBLE X coordinate of point

y DOUBLE Y coordinate of point


The data came from the spatial planning directorate of the Ministry of Environment, Spatial Planning and Public Works and their scale is 1:250 000. Fields can take the following values


category Rain Hydrometeorological

Stath Rainfall

watrcrsl1m_arc Contents: Main rivers for scale 1:250 000 – Line



name VARCHAR(40) River name



The data came from the Hellenic Mapping and Cadastral Organization and their scale is 1:1 000 000. These data are in the database for chartographic and / or historical reasons. These data are not updated.

HydroGeology

faults Contents: Ρήγµατα – Line



type VARCHAR(2) Not used in this project

dtype VARCHAR(1) Not used in this project

marine VARCHAR(1) Not used in this project

symbol INTEGER Characterization





symbol 1 Hydrological formation boundary

50 Fault visible

51 Thrust – Upthrust

52 Fault possible

The data came from digitization of IGME geological maps scale 1:50 000.



geology Contents: Geological formations – Polygon



Igme_Code VARCHAR(80) Geoligical formation code

Lithology VARCHAR(100) Lithological description of geoligical formation

Geo_Age VARCHAR(100) Age of geoligical formation

Fyllo_Igme VARCHAR(100) IGME sheet

Geo_Zone VARCHAR(150) Geotectonic zone

Area_Name VARCHAR(30) Name of area in Greek

Area_NameEN VARCHAR(30) Name of area in English




Relation of the field with the code of the geological formation of the IGME sheet (Field: Igme_Code) with the field of the lithological description of the formation (Field: Lithology).

Field Name Description Igme_Code Lithology

Igme_Code Geoligical formation code from IGME sheet

Al, alc, als, dl, be, c, c1, c2, cd, el, HJK, Hc, Hc_s, H.cd, H.lg, H.sl

Quaternary sediments – alluvial – modern sediments.

Al sc, al.sc1, alsc.2, cs, sc2, al1, al2, alc1, alsc, cs1, dlbc, dlc1, dlc2, dl1, dlic, dl-sc

Side scree – cones

M, M.lk1, M.lk2, Mimk, N, Ng.lk

Formations – lacustrine deposits

Es.c1, Es.c2, fc, fo.c, M1-zm, M1-3c, M1-2m, Fp-c, Kro-cc, M1.c, Nc, Ngc1, Ngc2

Conglomerates

3Fims, 1-3Fimi, 3Fis2, 3Fi-s2, 4Fim1, 4Fim4, e.k, Es.st, Lp.c, M-pli

Marls – sandstones – clays

f.st, Fo.st, F.st, Ji-m.sh, Kis, Mi.c2, M1.st2, st

Sandstone

Em, Fo-m, Lp, M.m.k., M1.m1, Mim, Mi.k, Ms.m, ne, Ng, Ng.m

Marls

Mbc, Mc, MG, Mm, M.mk, Mtb, Mm, M.m1, Ol.e, Ost.

Molassa

B, b1, b2, b3, b3-2, Cr-Ni, Fe, fn, fn1

Transportation trends of bauxitic resources – iron ore

Fw, fl, fo, fo.c, fpl, fs, fsg, 1-3fis, 1-4fi, ftc, 2fim2, 3fis3, 3fi, fs-g, ft.st, fi, f, F.o, fg, Ft, Fi, Fi.st, Fia, Fib

Flysch



Field Name Description Igme_Code Lithology

Jmk, ks, ks-k, TJ, Ts-Jikh, Ti, Jsk, k-Em.k, ki-mr, ki-7.fl, Cm-P.mr, D, e, ek, eMk, e-ok, Fok, kis, RJ-k, Tm-Jpk2, J, Jk, Ks-k, Ji-m, Ji-mk, Ji-mkd, Jk, Ts-Jik, Ji-sch, J-K-Em.k.i, J-kil, K, kh, K.8.k, Tk

Limestone

Td, Tk, T5D, T5-J3k, J-ki, Jki

Limestone – Dolomite – radiolarites

Jmr, mr, mr-sp, Pzn-Tim.mr, T-J.mr, Tm-s.mr

Marbles

Ji-Mo, o, oc, obr, RJ-sh, S

Ophiolites – peridotites, serpentinite

G, TG Gypsum – evaporites

Cm-P.sh, f.sh, Fgs, Jch, Jki, Jsh, Jm.sh, J.h, J.sch, J.sh, Ji-sk, Ji-s.ch, J-kish, T-J.sch, Kr.o-sh, Pzn-Timg, Pzn-Ts.sch, sch.mi

Slate – cherts

Ab, ab.pr, ab.sch, ab-pr, ab-sch, b.sch, bs, Fgs, sch, gn.

Metamorphic – Igneous rocks

The data came from the administrative tools of the Ministry of Development and their scale is 1:50 000. hydroformations Contents: Hydrogeological formations – Polygon



code VARCHAR(5) Formation code






code A IMPERMEABLE FORMATIONS

A1 IMPERMEABLE FORMATIONS – Flysch.

A2 IMPERMEABLE FORMATIONS - Metamorphic rocks

A3 IMPERMEABLE FORMATIONS - Plutonian and volcanic rocks.

C KARSTIC FORMATIONS - Limestone and marble of widespread development, moderate to high penetration of water.

C1 KARSTIC FORMATIONS - Limestone and marble of limited development, varying penetration of water.

C1’ KARSTIC FORMATIONS - Triassic limestone breccia of the Ionian zone, small to medium penetration of water.

I KARSTIC FORMATIONS

I1 KARSTIC FORMATIONS - Granular alluvial deposits of varying penetration of water.

I2 KARSTIC FORMATIONS - Granular non-alluvial deposits of moderate to very low penetration of water.

I3 KARSTIC FORMATIONS - Molassic granular deposits of small penetration of water.




hygeo_code Contents: Hydrogeological formations codes – Table


objectid COUNTER Record FID

Id DOUBLE Record ID

code VARCHAR(4) Formation code

symbol SMALLINT

category VARCHAR(25) Formation category

title VARCHAR(254) Formation title

text VARCHAR(15)



code A IMPERMEABLE FORMATIONS

A1 IMPERMEABLE FORMATIONS – Flysch.

A2 IMPERMEABLE FORMATIONS – Metamorphic rocks

A3 IMPERMEABLE FORMATIONS – Plutonian and volcanic rocks.

C KARSTIC FORMATIONS – Limestone and marble of widespread development, moderate to high penetration of water.

C1 KARSTIC FORMATIONS – Limestone and marble of limited development, varying penetration of water.

C1’ KARSTIC FORMATIONS - Triassic limestone breccia of the Ionian zone, small to medium penetration of water.

I KARSTIC FORMATIONS

I1 KARSTIC FORMATIONS – Granular alluvial deposits of varying penetration of water.

I2 KARSTIC FORMATIONS – Granular non-alluvial deposits of moderate to very low penetration of water.

I3 KARSTIC FORMATIONS – Molassic granular deposits of small penetration of water.

The data came from digitization of IGME geological maps scale 1:50 000. springs Contents: Springs – Point



code SMALLINT Spring coding

codename VARCHAR(5) Water district / Spring code


The data came from digitization of IGME geological maps scale 1:50 000. springs_code Contents: Springs coding – Table



code SMALLINT Spring coding

legend VARCHAR(30) Legend



legend 1 Land spring

2 Seaside spring

3 Seaside spring



The data came from digitization of IGME geological maps scale 1:50 000. springs_codename Contents: Springs coding – Table



id DOUBLE Spring ID

codename VARCHAR(10) Water district / Spring code

name VARCHAR(35) Spring name

place VARCHAR(40) Municipality where the spring is

quantity VARCHAR(15) Spring supply (c.m. / hour)

The data came from digitization of IGME geological maps scale 1:50 000. thermo Contents: Hot springs – Point





HydroPhysicalWaters

aquedctl Contents: Aqueducts – Line



loc* SMALLINT Location category


geographicalname VARCHAR(50) Geographical name used to identify the object in the real world

hydroid VARCHAR(10) National hydrological object code



condition VARCHAR(20) The state of the aqueduct on the completion and use of it

geometry VARCHAR(10) The geometric representation of the spatial area covered by the reservoir

inspireid VARCHAR(50) Unique external code of the aqueduct

levelofdetail VARCHAR(10) Display detail

type VARCHAR(10) Type of artificial crossing




LOC 8 Terrestrial

4 Underground

The data came from the geographic digital database that was created in the previous phase of ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version



1971 slides and supplemented by the corresponding colored map sheets in the same version. The digitization was made in 1998. Caution, they are not updated with the new coastine.

coasta Contents: Mainland and island area – Polygon



namegr VARCHAR(50) Name in Greek

nameen VARCHAR(50) Name in English






geometry VARCHAR(10) The geometric representation of the spatial area covered by the mainland and island area

inspireid VARCHAR(50) Unique external code of του πολυγώνου

leastdetailedviewingresolution

VARCHAR(15) Minimum scale which the name of the polygon should appear on the map

mostdetailedviewingresolution

VARCHAR(15) Maximum scale which the name of the polygon should appear on the map

localtype VARCHAR(15) Local name of the type of the polygon

relatedspatialobject VARCHAR(50) Unique external code of the same spatial entity which may appear in other groups of INSPIRE guidance

type VARCHAR(20) Characterization of type of the polygon

The data came from the geographic digital database that was created in the previous phase of ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides. The digitization was made in 1998. These data are in the database for chartographic and / or historical reasons. These data are not updated.

coastl Contents: Coastline – Line





endlispanversion DATETIME Date and time of which spatial objects were removed from the database

geometry VARCHAR(10) The geometric representation of the spatial area covered by the coastline

inspireid VARCHAR(10) Unique external code of the coastline

origin VARCHAR(10) Source (natural - artificial)

waterlevelcategory VARCHAR(30) The reference level for heights


The data came from the geographic digital database that was created in the previous phase of ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides. The digitization was made in 1998. These data are in the database for chartographic and / or historical reasons. These data are not updated.



daml Contents: Dams – Line



mcc* SMALLINT Construction material

tuc* SMALLINT Use category of means of transport


geographicalnameen VARCHAR(50) Geographical name used to identify the object in the real world in English


condition VARCHAR(20) The condition of the dam on the completion and use of it


geometry VARCHAR(10) The geometric representation of the spatial area covered by the dam

inspireid VARCHAR(50) Unique external code of the dam

levelofdetail VARCHAR(10) Level of detail


geographicalnemegr VARCHAR(50) Geographical name used to identify the object in the real world in Greek




MCC 0 Unknown

21 Cement

30 Dirt

62 Cobble or stone

999 Other material

TUC 0 Unknown

1 Road and railway line

3 Road line

4 Railway line

35 Not used in transport

The data came from the geographic digital database that was created in the previous phase of ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971. The digitization was made in 1998. Caution, they are not updated with the new coastine.

dangera Contents: Lagoons – Polygon




geographicalnamegr VARCHAR(50) Geographical name used to identify the object in the real world in Greek

geographicalnameen VARCHAR(50) Geographical name used to identify the object in the real world in English




geometry VARCHAR(10) The geometric representation of the spatial area covered by the lagoon



inspireid VARCHAR(50) Unique external code of the lagoon


localtype VARCHAR(15) Local name of type of surface water

origin VARCHAR(10) Origin (natural - artificial)

persistence VARCHAR(15) Grade of permanence of flow of water

tidal SMALLINT Influence of tidal events

elevation DOUBLE Elevation

meandepth DOUBLE Mean depth

surfacearea DOUBLE Surface area





tidal 1 Exists

The data came from the geographic digital database that was created in the previous phase of ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides. The digitization was made in 1998. Caution, they are not updated with the new coastine.

inunda Contents: Inundated land – Polygon






geometry VARCHAR(10) The geometric representation of the spatial area covered by the inundated land

inspireid VARCHAR(50) Unique external code of the inundated land

inundationreturnperiod SMALLINT Average period (years) of inundation occurrence

inundationtype VARCHAR(10) The type of land subject to inundation by the cause of inundation




lakeresa Contents: Lakes – Polygon




cntryname* VARCHAR(50) Country in which the lake is

geographicalnameen VARCHAR(50) Geographical name used to identify the object in the real world in Greek



geographicalnamegr VARCHAR(50) Geographical name used to identify the object in the real world in English




geometry VARCHAR(10) The geometric representation of the spatial area covered by the lake

inspireid VARCHAR(50) Unique external code of the lake


localtype VARCHAR(15) Local name of type of surface water

persistence VARCHAR(15) Grade of water flow permanence










tidal 1 Exists

Data related to Greek territory came from the geographic digital geodatabase created during the previous phase of the ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides and supplemented by the corresponding colored map sheets in the same version. The digitization was made in 1998. For neighboring countries (Albania, FYROM, Bulgaria, Turkey) came from the digitization of Landsat 7 images with pixel size of 5 meters. The digitization was made in 2009. The satellite images were supplied from ESDI (Earth Science Data Interface) Internet based platform of the Global Land Cover Facility (GLCF) service of Maryland University of the US and the Earth Resources Observation Systems Center (EROS) of the United States Geological Survey (USGS). The images are taken between 1999 and 2003. Caution, they are not updated with the new coastine.

lndfrm1a Contents: Salt evaporation ponds – Polygon








geometry VARCHAR(10) The geometric representation of the spatial area covered by the salt evaporation pond

inspireid VARCHAR(50) Unique external code of the salt evaporation pond


localtype VARCHAR(15) Local name of the surface water













tidal 1 Exists


seastrtl Contents: Shoreline construction – Line








condition VARCHAR(20) The state of construction on the completion and use of it

geometry VARCHAR(10) The geometric representation of the spatial area covered by the η κατασκευή

inspireid VARCHAR(50) Unique external code of the construction




swampa Contents: Swamps– Polygon








geometry VARCHAR(10) The geometric representation of the spatial area covered by the swamp

inspireid VARCHAR(50) Unique external code of the swamp



origin VARCHAR(10) Origin (natural – artificial)












tidal 1 Exists


wellsprp Contents: Springs – Point





geographicalnameen VARCHAR(50) Geographical name used to identify the object in the real worldin English


geometry VARCHAR(10) The geometric representation of the spatial area covered by the spring

inspireid VARCHAR(50) Unique external code of the spring





wtrcrsa Contents: Watercourses – Polygon









geometry VARCHAR(10) The geometric representation of the spatial area covered by the broad watercourse



inspireid VARCHAR(50) Unique external code of the broad watercourse



origin VARCHAR(10) Origin (natural – artificial)



delineationknown SMALLINT Awareness of demarcation

length DOUBLE Length

level VARCHAR(25) Relative vertical position

streamorder VARCHAR(10) Degree of branching

width VARCHAR(15) Width





delineationknown 1 Exists

tidal 1 Exists


wtrcrsl_c Contents: Canals – Line








geometry VARCHAR(10) The geometric representation of the spatial area covered by the canal

inspireid VARCHAR(50) Unique external code of the canal




peristence VARCHAR(15) Grade of water flow permanence


condition VARCHAR(20) The state of the canal on the completion and use of it



streamorder VARCHAR(10) Degree of branching







Fields can take the following values Field Name Value Denotes


tidal 1 Exists


wtrcrsl_r Contents: Rivers – Line



cntryname* VARCHAR(50) Country where the segment of the river is






geometry VARCHAR(10) The geometric representation of the spatial area covered by the river

inspireid VARCHAR(50) Unique external code of the river








streamorder VARCHAR(10) Degree of branching1








tidal 1 Exists

1. The coding was according to Strahler.

Data related to Greek territory came from the geographic digital geodatabase created during the previous phase of the ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides and supplemented by the corresponding colored map sheets in the same version. The digitization was made in 1998. For neighboring countries (Albania, FYROM, Bulgaria, Turkey) came from the digitization of Landsat 7 images with pixel size of 5 meters. The digitization was made in 2009. The satellite images were supplied from ESDI (Earth Science Data Interface) Internet based platform of the Global Land Cover Facility (GLCF) service of Maryland University of the US and the Earth Resources Observation Systems Center (EROS) of the United States Geological Survey (USGS). The images are taken between 1999 and 2003. Caution, they are not updated with the new coastine.



wtrshda Contents: Drainage basins – Polygon



area DOUBLE Area of basin

subbasin VARCHAR(3) Subbasin code

cntryname VARCHAR(50) Country where the basin is




basinorder VARCHAR(5) Number (or code) that expresses the degree of branching in a river drainage system



geometry VARCHAR(10) The geometric representation of the spatial area covered by the the basin

inspireid VARCHAR(50) Unique external code of the drainage basin

origin VARCHAR(10) Origin of the drainage basin



The data came from the geographic digital database that was created in the previous phase of ETYMP project, which were granted by the Ministry of Development and adjusted in elevation and hydrographic data for each water district.

Natura2000

natura Contents: Natura 2000 areas boundaries– Polygon


OBJECTID_1 COUNTER Polygon FID

Shape LONGBINARY The geometry of polygon, it is automatically calculated by the system

code VARCHAR(50) Natura area code

hectares DOUBLE The area of polygon in hectares

sitetype VARCHAR(6) Category

Shape_Length DOUBLE The perimeter of the polygon, it is calculated automatically by the system




code SPA Special protection area for birds

SCI Zone of community importance

The data came from the National Environmental Information Network and the scale is 1:100 000 for the land and 1:50 000 for the sea.



Pop50

builtupa Contents: Main settlements – Polygon




exs SMALLINT State of existence

nam VARCHAR(50) Name

use SMALLINT Use

order VARCHAR(2) Settlement order

wdist VARCHAR(2) Capital of the water district

cod91 VARCHAR(8) Settlement code by Greek NSS in 1991

municipality VARCHAR(8) Municipality or code by Greek NSS in 1991

onomasia VARCHAR(55) Name in Greek

real_pop DOUBLE Population

ektash VARCHAR(9) Area

ektash_xor VARCHAR(9) Area without internal water

ycometro VARCHAR(5) Elevation

problhmati VARCHAR(1) Degree of problem

morfologia VARCHAR(1) Morphology

astikothta VARCHAR(1) Urbanization

pol_sygkro VARCHAR(2) Urban complex

biom_kentr VARCHAR(2) Industrial Center

yphr_per_a VARCHAR(2) Regional development department

onomasia_m VARCHAR(55) Name of geographic code (lowercase)

tax_code VARCHAR(5) Postal code

prefecture VARCHAR(2) Prefecture code

province VARCHAR(3) Province code






F_CODE AL020 Residential area

EXS 0 Unknown

7 Destroyed

62 Partially destroyed

999 Other

USE 0 Destroyed

26 > 500 000 residents

30 100 000 – 500 000 residents

31 25 000 – 100 000 residents

111 5 000 – 25 0000 residents

ORDER 01 Order of settlement

WDIST 01 Capital of the water district

PROBLHMATI 4, 5 Problematic areas

3 Mountainous areas

0 Other areas

MORFOLOGIA 1 Lowlands

2 Hilly areas

3 Mountainous areas

ASTIKOTHTA 1 Urban population

2 Semi-urban population

3 Rural population



Data related to Greek territory came from the geographic digital geodatabase created during the previous phase of the ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides and supplemented by the corresponding colored map sheets in the same version. The digitization was made in 1998. For neighboring countries (Albania, Fyrom, Bulgaria, Turkey) came from the digitization of Landsat 7 images with pixel size of 15 meters. The digitization was made in 2009. The satellite images were supplied from ESDI (Earth Science Data Interface) Internet based platform of the Global Land Cover Facility (GLCF) service of Maryland University of the US and the Earth Resources Observation Systems Center (EROS) of the United States Geological Survey (USGS). The images are taken between 1999 and 2003.

Pop250

towns Contents: Οικισµοί – Point



oikism_91 VARCHAR(8) Settlement code in 1991

per_91 VARCHAR(4) Region code in 1991

cod_91 VARCHAR(6) Full code in 1991

nom_91 VARCHAR(2) Prefecture code in 1991

epa_91 VARCHAR(1) Province code in 1991

ota_91 VARCHAR(3) Local govermnment code in 1991

cod_pk VARCHAR(6) Full code before Kapodistrias

nom_pk VARCHAR(2) Prefecture code before Kapodistrias

epa_pk VARCHAR(1) Province code before Kapodistrias

ota_pk VARCHAR(3) Local government code before Kapodistrias

cod_mk VARCHAR(4) Full code after Kapodistrias

nom_mk VARCHAR(2) Prefecture code after Kapodistrias

ota_mk VARCHAR(2) Local government code after Kapodistrias

u_e_ota_91 VARCHAR(45) Name of local govermnment in 1991 (Greek, ELOT98)

u_e_ota_pk VARCHAR(45) Name of local govermnment before Kapodistrias (Greek, ELOT98)

u_e_ota_mk VARCHAR(45) Name of local govermnment after Kapodistrias (Greek, ELOT98)

u_e_oik_91 VARCHAR(45) Settlement name in 1991 (Greek, ELOT98, uppercase with article)

l_e_oik_91 VARCHAR(45) Settlement name in 1991 (Greek, ELOT98, lowercase with article)

l_e_nam_91 VARCHAR(40) Settlement name in 1991 (Greek, ELOT98, lowercase without article)

l_e_nam_mk VARCHAR(40) Settlement name after Kapodistrias (Greek, ELOT98, lowercase without article)

u_w_ota_91 VARCHAR(45) Municipality name in Greek το 1991

u_w_ota_pk VARCHAR(45) Municipality name in Greek before Kapodistrias

u_w_ota_mk VARCHAR(45) Municipality name in Greek after Kapodistrias

u_w_oik_91 VARCHAR(45) Settlement name in 1991 (Greek, Win95, uppercase with article)

l_w_oik_91 VARCHAR(45) Settlement name in 1991 (Greek, Win95, lowercase with article)

l_w_nam_91 VARCHAR(40) Settlement name in 1991 (Greek, Win95, lowercase without article)

u_l_ota_91 VARCHAR(45) Municipality name in Latin characters in 1991

u_l_ota_pk VARCHAR(45) Municipality name in Latin characters before Kapodistrias

u_l_ota_mk VARCHAR(45) Municipality name in Latin characters after Kapodistrias

u_l_oik_91 VARCHAR(45) Settlement name in 1991 (Latin, uppercase with article)

l_l_oik_91 VARCHAR(45) Settlement name in 1991 (Latin, lowercase with article)

l_l_nam_91 VARCHAR(40) Settlement name in 1991 (Latin, lowercase without article)

l_l_nam_mk VARCHAR(40) Settlement name after Kapodistrias (Latin, lowercase without article)

type_91 SMALLINT Category of settlement in 1991

type_pk SMALLINT Category of settlement before Kapodistrias

type_mk SMALLINT Category of settlement after Kapodistrias



fx_code VARCHAR(3) The code of the 1:50 000 map sheet of the Hellenic Military Geographical Service where the base-point is

dxf_layer VARCHAR(14) Status of base-point capitalnom SMALLINT Capital of prefecture

nomos VARCHAR(50) Prefecture




TYPE_91 0 Not a local government base

1 Local government base

TYPE_PK 0 Not a local government base


TYPE_MK 0 Not a local government base


DXF_LAYER E91_EPK_EMK 1991, BEFORE KAPODISTRIAS, AFTER KAPODISTRIAS

E91_EPK_XMK 1991, BEFORE KAPODISTRIAS

E91_XPK_EMK 1991, AFTER KAPODISTRIAS

E91_XPK_XMK 1991

X91_EPK_EMK BEFORE KAPODISTRIAS, AFTER KAPODISTRIAS

X91_EPK_XMK BEFORE KAPODISTRIAS

The data came from the National Environmental Information Network and the scale is 1:250 000.

RailTransportNetworks

Railwaylinksequence Contents: Railways – Line



fco SMALLINT Feature configuration

rrc SMALLINT Slope of railway

rsa SMALLINT Characteristic of separator

inspireid VARCHAR(50) Unique external code of the railway



validfrom DATETIME Date on which it came into existence

validto DATETIME Date on which it ceased to exist

link VARCHAR(5) Whether or not the direction of the digitization is the same as the actual direction of the segment




FCO -32767 No value

0 Unknown

2 Multiple

3 Simple

11 Double

12 In contrast

RRC -32767 No value



0 Unknown

16 Main line

RSA -32767 No value

0 Unknown

3 Accessible

link + Direction of digitization is the same as actual direction (it was used for bidirectional segments also)

- Direction of digitization is opposite of actual direction


conditionoffacility_rail Contents: Condition of facility – Table



currentstatus VARCHAR(20) Status of railway regarding completion and use

networkref VARCHAR(50) Link code with the railway table



inspireid VARCHAR(50) Unique external code of the attribute

validfrom DATETIME Date that the segment begun to exist

validto DATETIME Date that the segment ceased to exist

The data came from the geographic digital database that was created in the previous phase of ETYMP project.

railwaygauge Contents: Gauge of railway – Table



gauge SMALLINT Gauge of rails

railwaygauge VARCHAR(15) Category of railway gauge





validfrom DATETIME Date that the attribute begun to exist

validto DATETIME Date that the attribute ceased to exist


raiwayelectrification Contents: Electrfied – Table











electrified SMALLINT Electrified


verticalposition_rail Contents: Vertical position – Table



verticalposition VARCHAR(20) Relative vertical position








RoadTransportNetwork

ConditionOfFacility

Contents: Condition of facility – Table


OBJECTID COUNTER Record FID

currentStatus VARCHAR(20) Status of the roads regarding their completion and their use

networkRef VARCHAR(50) Link code to the road table

validTo DATETIME Date that the attribute ceased to exist

validFrom DATETIME Date that the attribute begun to exist

inspireId VARCHAR(50) Unique external code of the attribute

endLifespanVersion DATETIME Date and time of which spatial objects were removed from the database

beginLifespanVersion DATETIME Date and time of which spatial objects were created or inserted into the database

The data came from digitization of Landsat 7 images with pixel size 15 meters. The digitization was made in 2009. The satellite images were supplied from ESDI (Earth Science Data Interface) Internet based platform of the Global Land Cover Facility (GLCF) service of Maryland University of the US and the Earth Resources Observation Systems Center (EROS) of the United States Geological Survey (USGS). The images are taken between 1999 and 2003.



ERoad Contents: Roads that are part of the international E-road network – Line


OBJECTID COUNTER Line FID

Shape LONGBINARY The geometry of line, it is automatically calculated by the system



europeanRouteNumber VARCHAR(5) Unique code on the E-road network



inspireID VARCHAR(50) Unique external code of the element

Shape_Length DOUBLE The length of the line, it is automatically calculated by the system

The data came from digitization of Landsat 7 images with pixel size 15 meters. The digitization was made in 2009. The satellite images were supplied from ESDI (Earth Science Data Interface) Internet based platform of the Global Land Cover Facility (GLCF) service of Maryland University of the US and the Earth Resources Observation Systems Center (EROS) of the United States Geological Survey (USGS). The images are taken between 1999 and 2003. FuctionalRoadClass Contents: Classification of roads based on their significance in the road network – Table



fuctionalClass VARCHAR(15) Function class of the road link in the road network




inspireId VARCHAR(50) Unique external code of the attribute




NumberOfLanes Contents: Number of lanes of the road – Table



numberOfLanes SMALLINT Number of lanes


minMaxNumberOfLanes VARCHAR(10) Maximun or minimum number of lanes

direction VARCHAR(20) Direction



inspireId VARCHAR(50) Unique external code of the element






Road Contents: Roads with national codes – Line






localRoadCode VARCHAR(5) Identification code that has been assigned to the road by local authority

nationalRoadCode VARCHAR(5) National code of the road






RoadLinkSequence Contents: Road link sequence – Line







validFrom DATETIME Date when the road link sequence begun to exist

validTo DATETIME Date when the road link sequence ceased to exist

link VARCHAR(50) Whether or not the direction of the digitization matches the actual direction of the segment



link + Direction of digitization is the same as the actual direction of the segment (used for bidirectional segments also)

- Direction of digitization is opposite to actual direction




RoadName Contents: Name of the road, assigned by the responsible authority – Table



name VARCHAR(50) Name of road








RoadSurfaceCategory Contents: Type of road surface – Table



surfaceCategory VARCHAR(10) Type of road surface








RoadWidth Contents: Width of road (mean value) – Table



width SMALLINT Width




mesuredRoadPart VARCHAR(15) Indicates the part of the road that the measurement is done







VerticalPosition Contents: Vertical position – Table



verticalPosition VARCHAR(20) Relative vertical position








Toponames

topotext Contents: Place names – Point






geometry VARCHAR(10) The geometric representation of the spatial area covered by the place names

leastdetailedviewingresolution

VARCHAR(15) Minimum scale which the name of the polygon should appear on the map

localtype VARCHAR(15) Local name of the type of the polygon

mostdetailedviewing VARCHAR(15) Maximum scale which the name of the polygon should appear on



resolution the map

name VARCHAR(50) Name

relatedspatialobject VARCHAR(50) Unique external code of the same spatial entity which may appear in other groups of INSPIRE guidance

type VARCHAR(20) Characterization of type of the polygon

inspireid VARCHAR(50) Unique external code of του πολυγώνου


WaterDistricts

coastawd_polygon Contents: Water districts – Polygon




mcc SMALLINT Material of construction

mcs SMALLINT Material of construction secondary

nm3 VARCHAR(50) Name in Latin characters

nm4 VARCHAR(50) Name in Greek





f_code ΒΑ030 Water district

mcc, mcs 0

-32767 κενό

The data came from reviewing the ETYMP 1999 database with automated processes from DTM and union of drainage basins. These data, in turn, came from manual review of the original base of Hydtrological and Hydrographical data from 1990. This database was created by digitizing and coding of the drainage basins designs that were drawn by hand over the 1:50 000 maps of the Hellenic Military Geographical Service. These data are in the database for chartographic and / or historical reasons. These data are not updated. coastl_arc Contents: Coastline – Line




acc SMALLINT Accuracy class

slt SMALLINT Category of coastine

vdc SMALLINT Category of vertical surface

zv2 DOUBLE Elevation






f_code ΒΑ010 Coastline

acc 0 Unknown

1 Precise

slt 1 Unknown

vdc 15 Mean sea level

ZV2 0 Coastline elevation

29999 Unknown

The data came from the geographic digital database that was created in the previous phase of ETYMP project, which itself came from the digitization of Hellenic Military Geographical Service, scale 1:50 000, version 1971 slides and supplemented by the corresponding colored map sheets in the same version. The digitization was made in 1998. These data are in the database for chartographic and / or historical reasons. These data are not updated.

wdg Contents: Water districts – Polygon



wdistrict VARCHAR(3) Water district code




The data came from reviewing the ETYMP 1999 database with automated processes from DTM and union of drainage basins. These data, in turn, came from manual review of the original base of Hydtrological and Hydrographical data from 1990. This database was created by digitizing and coding of the drainage basins designs that were drawn by hand over the 1:50 000 maps of the Hellenic Military Geographical Service. These data are in the database for chartographic and / or historical reasons. These data are not updated.

WFDGroundWater

map Contents: Map of groundwater aquifer systems – Polygon


OBJECTID COUNTER Polygon FID

Shape LONGBINARY The geometry of polygon, it is automatically calculated by the system

AREA REAL The area of the polygon

PERIMETER REAL The perimeter of the polygon

CODE VARCHAR(4) Water aquifer code

TYPE VARCHAR(54) Water aquifer type

Shape_Length DOUBLE The perimeter of the polygon, it is calculated automatically by the system


The data came from a study carried out by IGME for the Article 5 of Directive 2000/60/EC in order for Greece to meet the obligations towards the European Union.

monitoring



Contents: Groundwater Monitoring Stations – Point



eu_cd VARCHAR(42) Unique European Union level code

ms_cd VARCHAR(40) Unique member state level code

lon VARCHAR(9) Longitude of point

lat VARCHAR(9) Latitude of point

wb_locatio VARCHAR(42) Unique European Union level code according to article 5 for the underground water near which there is the station

name VARCHAR(250) Local name

well_or_sp VARCHAR(1) Typer of spring

quantitati VARCHAR(1) Quantitative monitoring station

chem_surve VARCHAR(1) Chemical monitoring station

chem_opera VARCHAR(1) Chemical operations monitoring station

no_subsite INTEGER Existence of subsite

depth VARCHAR(1) Depth

monitoring VARCHAR(2) Monitoring Station

drink_wate VARCHAR(2) Drinking water pumping

additional VARCHAR(254) Additional requirements if the station is near pumping water area

ind_supply VARCHAR(2) Industrial use

irrigation VARCHAR(2) Irrigation

other_supp VARCHAR(2) Other uses

assoc_doc_ VARCHAR(254) Link or references to documents on the station

url VARCHAR(250) World Wide Web address

other_netw VARCHAR(254) Description of other networks that the station is part of

dist_cd VARCHAR(42) Unique European Code of the water district to which it belongs



well_or_sp B Drilling

S Spring

W Well

no_subsite 0 No subsite

1 There is subsite

The data came from a study carried out by IGME for the Article 8 of Directive 2000/60/EC in order for Greece to meet the obligations towards the European Union.

WFDSurface

SWstn_detailed Contents: Surface water monitoring stations – Point



wdistrict VARCHAR(50) Water district code

name VARCHAR(100) Station name

bdy_cd VARCHAR(24) Unique code in European Union of monitored surface water

eu_cd VARCHAR(24) Unique code in European Union

ms_cd VARCHAR(22) Unique code in membert state

ins_when DATETIME Date it was inserted into the database

ins_by VARCHAR(15) Who inserted it into the database

depth SMALLINT Depth

drinking VARCHAR(1) Drinking water pumping station



invest VARCHAR(1) Research station

operat VARCHAR(1) Work station

habitat VARCHAR(1) Natural environment station

surveil VARCHAR(1) Monitoring station

reference VARCHAR(1) Reference station

lon_wgs84 DOUBLE Longitude in WGS84

lat_wgs84 DOUBLE Latitude in WGS84

intercal VARCHAR(1) Part of calibration network

internatio VARCHAR(15) Name of international network that the station is part of

w_body VARCHAR(150) Name of surface water

sciacode VARCHAR(9) Unique station code in international network

xcoord INTEGER X Coordinate

ycoord DOUBLE Y Coordinate

category VARCHAR(20) Type of surface water that is monitored



intercal Y Is part

N Is not part

U Unknown

NA Not Applicable

The data came from the implementation of the Article 8 of Directive 2000/60/EC in order for Greece to meet the obligations towards the European Union.

WFD_historical

coastal_GR Contents: Coastal Waters – Polygon




ms_cd VARCHAR(50) Unique code in member state


altname1 VARCHAR(50) First alternative name

altname2 VARCHAR(50) Second alternative name

altname3 VARCHAR(50) Third alternative name

basin_cd VARCHAR(5) Drainage basin code

character VARCHAR(50) Characterization




The data came from the implementation of the Article 5 of Directive 2000/60/EC in order for Greece to meet the obligations towards the European Union and their scale is 1:50 000. lakes_GR Contents: Lakes – Polygon
















The data came from the implementation of the Article 5 of Directive 2000/60/EC in order for Greece to meet the obligations towards the European Union and their scale is 1:50 000. Rivers_GR Contents: Rivers – Line














The data came from the implementation of the Article 5 of Directive 2000/60/EC in order for Greece to meet the obligations towards the European Union and their scale is 1:50 000. transitional_GR Contents: Transitional waters – Polygon














The data came from the implementation of the Article 5 of Directive 2000/60/EC in order for Greece to meet the obligations towards the European Union and their scale is 1:50 000.

WFD

Rivbasin Contents: Drainage basins – Polygon





name VARCHAR(100) Name in English



dist_cd VARCHAR(24) Unique code of the water distrct it belongs to

areakm2 DOUBLE Area in square kilometers




Data related to Greek territory came from the geographic digital geodatabase created during the previous phase of the ETYMP project, which were provided by the Ministry of Development and have been adjusted to the elevation and hydrographic data of each water district. For the neighbouring countries they came from processing the Aster digital elevation model with pixel size about 30 meters. The processing of the DTM begun in September 2009 and was completed by the end of the year.

RWbody Contents: Streams – Line




name VARCHAR(100) Name in Greek

altname1 VARCHAR(50) Name in English

altname2 VARCHAR(50) Not used in this project

altname3 VARCHAR(50) Not used in this project

region_cd VARCHAR(2) Ecoregion to which it belongs

system VARCHAR(1) Type of characterization

ins_when DATETIME Date of input into the database

ins_by VARCHAR(15) Operator who made the input

basin_cd VARCHAR(24) Code of the drainage basin it runs across

status_yr VARCHAR(4) Time reference of characterization

modified VARCHAR(1) Modified or not

artificial VARCHAR(1) Artificial or not

alt_cat VARCHAR(4) Elevation category in accordance with anex II

geol_cat VARCHAR(1) Geological matter in accordance with annex II

size_cat VARCHAR(2) Typology of size based on the hydrologic basin in accordance with the Annex II


ms_cd VARCHAR(22) Unique code of member state

geology VARCHAR(15) Geology

lat DOUBLE Latitude

lon DOUBLE Longitude

size DOUBLE Size (total length in kilometers)

dist_source DOUBLE Distance from the source of the river

energy VARCHAR(15) Energy of stream

av_width DOUBLE Mean width of water

av_depth DOUBLE Mean depth of water

av_slope DOUBLE Mean slope

riv_morph VARCHAR(15) Form and shape of the main riverbed

discharge VARCHAR(15) Category of flow

val_morph VARCHAR(15) Form of valley

solids VARCHAR(15) Transfer of solids

acid_neut VARCHAR(15) Acid neutralizing ability

substratum VARCHAR(15) Mean substratum composition

chloride VARCHAR(15) Chlorides



a_temp_rge VARCHAR(15) Atmospheric temperature range

av_a_temp DOUBLE Mean atmospheric temperature

ppt DOUBLE Rainfall




region_cd ME Mediterranean

modified Y Modified

N Not modified

artificial Y Artificial

N Not artificial

alt_cat Low Lowland (<200 meters)

Mid Medium (200-800 meters)

High High (>800 meters)

geol_cat C Calcareous

S Siliceous

O Organic

size_cat S 10 – 100 sq.km

M 100 – 1000 sq.km

L 1000 – 10000 sq.km

XL >10000 sq.km

Fields eu_cd, name, altname1, altname2, altname3, ms_cd, basin_cd have been filled in with the values that were at their respective features of WFD_Historical. This results in many cases not fully matched records thus some fields get the same code or left null.

Data related to Greek territory came from processing the digital elevation model of the previous phase of the ETYMP project with pixel size of 25 meters and for the neighbouring countries from the processing of Aster digital elevation model with pixel size of about 30 meters. The processing of the digital elevation model begun in September 2009 and was completed by the end of the year.

WFD_CA1 Contents: Competent authorities – Point



eucacode VARCHAR(42) Unique European code of the competent authority

competentauthorityname VARCHAR(100) Official name of the competent authority in English


competentauthoritynamenl VARCHAR(100) Official name of the competent authority in Greek

acronym VARCHAR(25) Acronym of the competent authority if it exists

auth_cd VARCHAR(40) Unique national code of the competent authority

legalstatus LONGCHAR Summary of the legal status of the authority, how was established and what are the obligations relating directly or indirectly to the WFD

reference VARCHAR(250) Reference of link to the constitution or the constitution treaty or other similar legal document

summary LONGCHAR Summary of the constitution or the constitution treaty or other similar legal document

street VARCHAR(100) Street

city VARCHAR(100) City in English

citynl VARCHAR(100) City in Greek

country VARCHAR(100) Country

postcode VARCHAR(50) Postal code

rolecode VARCHAR(3) Role codes



comment LONGCHAR Other roles that are not covered above

url VARCHAR(250) Web address of the authority



rolecode Α Coordination, preparation and production of management plans

Β01 Reporting of monitoring of the requirements

Β02 Reporting, regulating and granding permits of activities related to surface and groundwater

Β03 Reporting on public informing and consultation

The data came from digitization in which the layer “towns” was used as base layer.

WFD_RBD1 Contents: Water districts – Polygon



eurbdcode VARCHAR(42) Unique code of the water district in European Union

rbdname VARCHAR(100) Name in English

rbdnamenl VARCHAR(100) Name in Greek

rbd_ms_cd VARCHAR(22) Unique code in member state

area DOUBLE Area of the water district in square kilometers

nationalrelationships MEMO Summary of the institutionalized relationships established in the water district to ensure the coordination of the competent authorities. It should also include a list of the coordinating body and its relationship with the authorities of which activities it coordinates. international – if the water district is part of an international water district

international VARCHAR(1) If the water district is part of an international water district

internationalname VARCHAR(100) In case it is part of an international water district, the name of that district

internationalrelationships MEMO In case it is part of an international water district, summary of the institutionalized relationships that have been established in the water district to ensure the coordination when the water district covers area larger than one member state or includes segments of a non-member state. Include references to international agreements if such exist and also links for further information

primecompetentauthority VARCHAR(42) Unique European code of the main competent authority

othercompetentauthority VARCHAR(42) Unique European code of other competent authority that is associated with the water district

otherrelevantroles LONGCHAR Summary of organizations that are not defined as competent authorities and the definition of their role

eusubunitcode VARCHAR(42) Unique European code. In case only one exists it is filled with the unique European code of the water district

ms_subunitcode VARCHAR(40) Unique code in member state

subunitname VARCHAR(100) Name in Greek

subunitnamenl VARCHAR(100) Name in English








international Y Part of an internation water district

N Not part of an internation water district

Data related to Greek territory came from the geographic digital geodatabase created during the previous phase of the ETYMP project, which were provided by the Ministry of Development and have been adjusted to the elevation and hydrographic data of each water district. For the neighbouring countries they came from processing the Aster digital elevation model with pixel size about 30 meters. The processing of the DTM begun in September 2009 and was completed by the end of the year.

References




Guidelines, v3.0


df

[DS-D2.8.I.7] INSPIRE DS-D2.8.I.7 INSPIRE data specification on Transport Networks – Guidelines,

v3.0

http://inspire.jrc.ec.europa.eu/documents/Data_Specifications/INSPIRE_DataSpecification_TN_v3.0.p

df

[DS-D2.8.I.4] INSPIRE DS-D2.8.I.4 INSPIRE data specification on Administrative units –

Guidelines,

v3.0

http://inspire.jrc.ec.europa.eu/documents/Data_Specifications/INSPIRE_DataSpecification_AU_v3.0.p

df

[DS-D2.8.I.8] INSPIRE DS-D2.8.I.8 INSPIRE data specification on Hydrography –Guidelines, v3.0

http://inspire.jrc.ec.europa.eu/documents/Data_Specifications/INSPIRE_DataSpecification_HY_v3.0.p

df



Landsat 7 Satellite Images

The satellite images that were used as background came from the Landsat7 ETM+ (Enhanced Thematic Mapper) satellite. The images were taken between 1999 and 2003 during the summer of each year. The imagery was supplied via Internet from the following sources:

1) ESDI (Earth Science Data Interface) platform of the Global Land Cover Facility (GLCF) service of the Maryland university of the US

2) Center for Earth Resources Observation and Science (EROS) of the United States Geological Survey (USGS)

The images used cover all the area of Greece, western Turkey, Albania, FYROM and Bulgaria. Each file contains 9 images that correspond to the channels the Landsat 7 ETM+ censor records.

All the primary data supplied were radiometrically and geometrically correct. All data are accompanied by a text file which contains the metadata, while those from the (USGS), the include ground control points. In the following tabke the general attributes of the Landsat images are listed.

General attributes of the satellite images

To convert the images from UTM to EGSA87 third degree polynominal was used while the image reconstruction method was the Nearest Neighbour. The multispectral images were composited of channels 1, 2 and 3 that correspond to blue, green and red of the visible spectrum. Then the multispectral images (Landsat 1,2,3) were merged with pixel size 30m with the panchromatic channel with pixel size 15m which resulted in the creation of multispectral images with 15m resolution. To correct the radiometric defects due to the merge the selective histogram strengthening was used in each image. Finally, the MrSID (wavet compression) compression method was used to reduce the size of the images without any loss of information.

Satellite Landsat7

Censor ETM+

Number of channelsr 8

Projection system UTM

Ellipsoid WGS 84

File type Geotiff

Panchromatic (channel 8)

15m.

Channels 1-5 and 7 30m. Pixel Size

Channels 6H and 6L 60m.

Image reconstruction method

Cubic Convolution

Cloud cover Less than 10%



Digital Terrain Model

The digital terrain model that came from the previous phase of the ETYMP project covered only the area of Greece. It was created from hydrographic and elevation data with the TOPOGRID command in ArcINFO. The pixel size was 25 meters. The digital terrain model as well as the data procuded from it have been created individually per each water district and them were merged.

Aster Digital Terrain Model

The Aster digital terrain model covers the neghbouring countries of Greece. It was created from the Ministry of Economy, Trade and Industry of Japan in cooperation with NASA and has pixel size of about 30 meters. It was supplied via Internet.

SRTM Digital Terrain Model

The SRTM digital terrain model has pixel size of 90m and is a mosaic from raster DTM that have been created from SRTM Radar satellite images (NASA Shuttle Radar Topographic Mission). The mosaic covers the area of Greece and neighbouring countries.

hellenic republic ministry of environment, energy … · hydro_250 hydrographic network...

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